A Proton moves through a region containing a uniform electric field given by E = 72: of v/m and a uniform magnetic field B² = (0.2007 + 0-3003 + 0.400k) T. Determine the acceleration of the proton when it has a velocity ✓² = 230 îm/5² Note: Answer must be in m 152.
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- A charged particle is introduced into a uniform magnetic field Bz = 0.5 mTesla with an initial velocity vx = 1 x 106 m/s. It’s subsequent trajectory describes a circle with radius r = 2.4 cm. What is the specific charge q/m of this particle in terms of e/m = 1.67 x 1011C/kg? Select one: a. 3e/m b. e/2m c. e/3m d. 2e/mA long, straight, hollow wire with inner radius 3.0 mm and outer radius 8.ó mm has 2.4 A of current passing through, uniformly distributed throughout its cross-sectional area. Determine the magnitude of the magnetic field by the wire a radial distance of 6.3 mm from its axis. Give your answer in units of µT.The figure below shows the cross section of a long cylindrical conducting cylinder of radius a = 0.0878 m. The current density in the cross section is given by J = (4.13 × 106 A/m³) r. What is the magnitude of the magnetic field at a distance of 0.0535 m from the center of the cylinder? i T a r
- A washer with inner diameter 5.0 cm is carried in your pocket as you walk directly north according to your magnetic compass. Assume the normal to the washer's plane is exactly horizontal, pointing toward magnetic north. The Earth's magnetic field strength is 0.056 mT. If the magnetic flux through the washer's opening is 36 nTm2, what is the angle below local horizontal that the magnetic field vector points?A charged particle moves through a velocity selector at constant velocity. The velocity selector is configured with "crossed" electric and magnetic fields of magnitude E = 1.50 x 104 N/C and B = 0.4 T. %3D Hint a. What is the velocity of the charged particle? Velocity of the charged particle is x 104 m/s. b. When the electric field is turned off, the charged particle travels in a circular path of radius 6 mm, as it travels through the magnetic field (still at B = 0.4 T). What is the mass-to-charge ratio of the particle? Hint for (b) Mass-to-charge ratio of the part is kg/C. (Use the "E" notation to enter your answer in scientific notation. For example, to enter 3.14 × 10´ 12".) - 12 enter "3.14E-Two long straight wires carry currents perpendicular to the xy plane. One carries a current of la = 17 A and passes through the point x = 5 cm on the x axis. The second wire has a current of Ig = 56 A and passes through the point y = 8 cm on the y axis. What is the magnitude of the resulting magnetic field at the origin? Write your answer in micro-tesla.
- A long horizontal wire carries 26.0 AA of current due north. The Earth's field 24.0 cmcm due west of the wire points north but downward, 41 ∘∘ below the horizontal, and has magnitude of 5.0×10−5T×10−5T. What is the magnitude of the net magnetic field 24.0 cmcm due west of the wire? Express your answer using two significant figures. B=? What is the angle below the horizontal of the net magnetic field 24.0 cmcm due west of the wire? Express your answer using two significant figures. θ=?A charged particle is introduced into a uniform magnetic field Bz = 0.5 mTesla with an initial velocity vx = 1 x 106 m/s. It’s subsequent trajectory describes a circle with radius r = 2.4 cm. What is the specific charge q/m of this particle in terms of e/m = 1.67 x 1011C/kg? Select one: a. 2e/m b. 3e/m c. e/3m d. e/2mAn electron moves with velocity v =(5.0i−5.0j) ×104 m/s in a magnetic field B = (−0.73i+0.70j) T. Determine the z-component of the force on the electron. Express your answer using two significant figures.